Quantitative Analysis and Affecting Factors of the Overlapping Degree of Interfacial Transition Zone between Neighboring Aggregates in Concrete 被引量：5

Quantitative Analysis and Affecting Factors of the Overlapping Degree of Interfacial Transition Zone between Neighboring Aggregates in Concrete

下载PDF

导出

摘要 Based on the nearest surface function formula, a quantitative formula to measure the overlapping degree between the interfacial transition zone （ITZ） of neighboring aggregate particles was put forward. The formula was further deduced to quantitatively analyze the influence of the volume fraction of aggregate, ITZ thickness and the maximum aggregate diameter on the overlapping degree between neighboring ITZ. The volume of ITZ was quantitatively calculated in actual concrete by comparing the nearest surface function formula with an approximate method, that is the surface area of the aggregates multiplied by the uniform thickness of the ITZ layers. The results showed that the influencing order of these three factors on the overlapping degree between neighboring ITZ in turn was the interface thickness, aggregate volume fraction and the maximum aggregate diameter; As long as the interface thickness 50 μm and the aggregate volume fraction 50%, the calculated error between two methods mentioned above is about 10 %. Based on the nearest surface function formula, a quantitative formula to measure the overlapping degree between the interfacial transition zone （ITZ） of neighboring aggregate particles was put forward. The formula was further deduced to quantitatively analyze the influence of the volume fraction of aggregate, ITZ thickness and the maximum aggregate diameter on the overlapping degree between neighboring ITZ. The volume of ITZ was quantitatively calculated in actual concrete by comparing the nearest surface function formula with an approximate method, that is the surface area of the aggregates multiplied by the uniform thickness of the ITZ layers. The results showed that the influencing order of these three factors on the overlapping degree between neighboring ITZ in turn was the interface thickness, aggregate volume fraction and the maximum aggregate diameter; As long as the interface thickness 50 μm and the aggregate volume fraction 50%, the calculated error between two methods mentioned above is about 10 %.

作者孙国文孙伟

机构地区 School of Materials Science and Engineering Jiangsu Key Laboratory of Construction Materials

出处《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2011年第1期147-153,共7页 武汉理工大学学报（材料科学英文版）

基金 Funded by the National Basic Research Program of China (No.2009CB623203) National High-tech R&D Program of China (No.2008AA030794) Postgraduates Research Innovation in University of Jiangsu Province in China (No.CX10B-064Z)

关键词 CONCRETE interfacial transition zone degree of overlapping volume fraction 发 Fuller distribution concrete interfacial transition zone degree of overlapping volume fraction 发 Fuller distribution

分类号 TU528 [建筑科学—建筑技术科学]

引文网络
相关文献

参考文献22

1Diamond S, Mindess S. SEM Investigations of Fracture Surfaces Using Stereo Pairs: III Fracture Surfaces of Mor- tars[J]. Cement and Concrete Research, 1994, 24(6): 1 140- 1 152.
2Scrivener K L, Bentur A, Pratt P L. Quantitative Charac- terization of the Transition Zone in High- Strength Con- cretes[J]. Advances in Cement Research, 1988, 1(4): 230-237.
3Sugama T, Carciello N, Kukacka LE, et al. Interface be- tween Zinc Phosphate-Deposited Steel Fibres and Cement Paste[J]. Journal of Materials Science, 1992, 27(11): 2 863- 2 872.
4Raivio P, Sarvaranta L. Microstructure of Fibre Mortar Composites under Fire Impact-Effect of Polypropylene and Polyacrylonitrile Fibers[J]. Cement and Concrete Research, 1994, 24(5): 896-906.
5Bourdette B, Ringot E, Ollivier J P. Modelling of the Tran- sition Zone Porosity[J]. Cement and Concrete Research, 1995, 25(4): 741-751.
6Ye G. Percolation of Capillary Pores in Hardening Cement Pastes[J]. Cement and Concrete Research, 2005, 35(1): 167-176.
7Gao J M, Qian c x, Liu H F, et al. ITZ Microstructure of Concrete Containing GGBS[J]. Cement and Concrete Re- search, 2005, 35(7): 1 299-1 304.
8Garboczi E J, Bentz D P. Digital Simulation of the Aggre- gate-Cement Paste Interfacial Zone in Concrete[J]. Journal of Materials Research, 1991, 6(1 ): 196-201.
9Garboczi E J. Computational Materials Science of Ce- ment-Based Materials[J]. Materials and Structures, 1993, 26(4): 191-195.
10Scrivener K L, Nemati K M. The Percolation of Pore Space in the Cement Paste/Aggregate lnterfacial Zone[J]. Cement and Concrete Research, 1996, 26(1): 35-40.

同被引文献36

1陈惠苏,孙伟,STROEVEN P,SLUYS L J.水泥基复合材料邻近集料表面最近间距分布的解析解(英文)[J].硅酸盐学报,2005,33(7):859-863. 被引量：6
2陈惠苏,孙伟,STROEVEN Piet.水泥基复合材料界面过渡区体积分数的定量计算[J].复合材料学报,2006,23(2):133-142. 被引量：15
3郑建军,周欣竹,姜璐,徐世烺.混凝土界面面积分数和渗流阈值及其应用(I)——计算机模拟[J].建筑材料学报,2006,9(3):266-273. 被引量：8
4王振军,沙爱民.水泥混凝土浆体—集料界面过渡区结构与性能试验技术[J].南昌大学学报（工科版）,2007,29(2):175-180. 被引量：10
5陈露一,郑志河,邵慧权,范鹏云.混凝土界面过渡区不均匀特性研究[J].武汉理工大学学报,2007,29(9):111-114. 被引量：31
6Ye G, Hu J, Breugel K V, et al. Characterization of the development of microstructure and porosity of cement-based material by numerical simulation and ESEM image analysis[J]. Materials and Structures, 2002, 35(10) :603-613.
7Pivonka P, Hellmieh C, Smith D. Microscopic effects on chloride diffusivity of cement pastes: a scale- transition analysis[J]. Cement and Concrete Research, 2004, 34(12) :2251-2260.
8Halamickova P, Detwiler R J, Bentz D P, et al. Water permeability and chloride ion diffusion in Portland cement mortars: relationship to sand content and critical pore diameter [J]. Cement and Concrete Research, 1995, 25(4) :790-802.
9Li S Q, Roy D M. Investigation of relations between porosity, pore structure, and C1r diffusion of fly ash and blended cement pastes[J]. Cement and Concrete Research, 1986, 16 (5): 749-759.
10Care S. Influence of aggregates on chloride diffusion coefficient into mortar [J]. Cement and Concrete Research, 2003, 33(7) :1021-1028.

引证文献5

1高礼雄,孙国文,张云升,孙伟.水泥基复合材料氯离子扩散系数与孔隙率之间的关系[J].重庆大学学报（自然科学版）,2012,35(11):53-61. 被引量：13
2高嵩,李秋义,张巨松.超细矿渣复合防腐剂对混凝土界面区晶体取向和尺寸影响[J].沈阳建筑大学学报（自然科学版）,2015,31(1):109-116. 被引量：4
3张建建,ZHANG Lijuan,孙国文,WANG Caihui.Modeling and Software Development of the Interfacial Transition Zone of Ellipsoidal Aggregate in Cement-Based Composites[J].Journal of Wuhan University of Technology(Materials Science),2019,34(3):648-655. 被引量：1
4张建建,PENG Liang,ZHANG Guoqiang,孙国文,LIU Zhiyong.Theoretical Calculation of ITZ Volume Fraction and Morphological Characterization of Crushed Stone in Concrete[J].Journal of Wuhan University of Technology(Materials Science),2022,37(4):656-665.
5高嵩,李秋义,金祖权,吴本清.超细矿粉对混凝土界面区硫酸盐腐蚀的影响[J].沈阳工业大学学报,2014,36(5):585-590. 被引量：6

二级引证文献24

1李果,陈建壮,郭东芹.盐渍土环境掺粉煤灰、矿粉混凝土的硫酸盐腐蚀[J].徐州工程学院学报（自然科学版）,2015,30(3):70-75. 被引量：5
2董树国,张国杰,侯黎阳,李昆鹏,赵丹,姚继广,胡瑾.核磁共振数据分析混凝土孔隙率与抗盐冻关系[J].电子显微学报,2015,34(5):428-432. 被引量：7
3孙国文,张丽娟.CT技术用于水泥基材料微观结构表征的国内外研究进展[J].混凝土,2015(12):8-12. 被引量：2
4邵俊丰,张世义,范颖芳.PVA纤维水泥砂浆氯离子扩散性研究[J].广西大学学报（自然科学版）,2016,41(4):1170-1177. 被引量：5
5高超,周永祥,王晶,袁芬,彭小燕,黄志斌,贾佳.混凝土流变防腐剂的性能试验研究[J].混凝土世界,2016(8):71-74. 被引量：3
6张俊芝,李登辉,陈伟,王建东,高延红.潮差环境下混凝土氯离子扩散时变性与孔隙分形特征的关系[J].自然灾害学报,2016,25(6):51-57. 被引量：5
7韦灼彬,李仲欣.珊瑚混凝土孔隙参数与氯离子扩散系数的关系[J].后勤工程学院学报,2017,33(3):1-8. 被引量：11
8谭业文,王曙光,刘伟庆,韩建德,杜东升,徐锋,李威威.粉煤灰对混凝土抗氯盐侵蚀性能的影响[J].混凝土,2017(7):144-148. 被引量：12
9刘晋艳,李旭东,巩天真,马宏强,褚震,张宇婷,苏振晋.防硫酸盐腐蚀高性能混凝土的正交配合比试验[J].中北大学学报（自然科学版）,2017,38(3):391-396. 被引量：1
10张淋淋,齐誉,乔秀文,李洪玲,洪成林,但建明.渗透结晶反应对水泥基材料孔隙率的影响[J].石河子大学学报（自然科学版）,2018,36(2):201-206. 被引量：6

1SUN GuoWen,SUN Wei,ZHANG YunSheng,LIU ZhiYong.Numerical calculation and influencing factors of the volume fraction of interfacial transition zone in concrete[J].Science China(Technological Sciences),2012,55(6):1515-1522. 被引量：3
2赵国藩,王凤翼.大骨料全级配混凝土断裂韧度和断裂能研究[J].工程力学,1996,13(A01):51-62. 被引量：7
3石国柱,韩菊红.大粒径钢纤维混凝土劈拉性能研究[J].混凝土,2009(9):87-88. 被引量：3
4付美珠.论九八《福建省建筑工程综合预算定额》中容易计算错误的几点问题[J].福建建筑,2002(2):79-80.
5雷宁,王浩.结构设计中基于构件自振周期的若干问题的探讨[J].结构工程师,2017,33(1):8-14. 被引量：2
6黄小燕.工程量清单计价模式下的投标策略浅析[J].商品与质量（学术观察）,2011(8):4-5.
7瑞典年进口垃圾60万吨供热[J].国际市场,2011(3):77-77.
8石国柱,韩菊红,张雷顺.钢纤维大粒径混凝土断裂性能研究[J].混凝土,2006(2):70-71. 被引量：3
9石国柱,徐晓勇.抗裂防渗水工混凝土弯曲韧性研究[J].人民黄河,2010,32(12):243-244. 被引量：2
10施林林,宋玉普,沈璐.不同应变率下大骨料及湿筛混凝土单轴受压试验研究[J].世界地震工程,2016,32(2):270-276. 被引量：17

Journal of Wuhan University of Technology(Materials Science)

2011年第1期

浏览历史

内容加载中请稍等...

Quantitative Analysis and Affecting Factors of the Overlapping Degree of Interfacial Transition Zone between Neighboring Aggregates in Concrete 被引量：5

参考文献22

同被引文献36

引证文献5

二级引证文献24

相关作者

相关机构

相关主题

浏览历史